KR100811489B1 - Reciprocating compressor - Google Patents

Abstract

A reciprocating compressor is provided to couple a moving element of a reciprocating motor with a piston by a power transmission element in the ball-joint coupling manner for correcting concentricity and perpendicularity of the moving element and the piston in real time, thereby reducing friction loss therebetween. A reciprocating compressor includes a cylinder(41), a reciprocating motor for generating straight reciprocating driving force, and a piston(42) formed with a gas suction path(42a) inside and reciprocating in the cylinder. A power transmission element(60) transmits the driving force of the reciprocating motor to the piston, and has a penetrated path(64) communicating with the gas suction path of the piston and both ends coupled with relating connection parts movably.

Description

Reciprocating Compressor {RECIPROCATING COMPRESSOR}

1 is a cross-sectional view showing an embodiment of the reciprocating compressor of the present invention;

Figure 2 is a cross-sectional view showing the self-aligning state between the reciprocating motor and the piston in the reciprocating compressor according to Figure 1,

3 is a cross-sectional view showing another embodiment of the reciprocating compressor of the present invention;

Figure 4 is a cross-sectional view showing the self-aligning state between the reciprocating motor and the piston in the reciprocating compressor according to FIG.

** Description of symbols for the main parts of the drawing **

10: casing 20: frame unit

30: reciprocating motor 33: mover

35: magnet flange 35a: first groove portion

40: compression unit 41: cylinder

42: piston 42a; Suction flow path

42b: second groove 50: resonant spring unit

51: spring supporter 51a: first groove portion

60: force transmission member 61: rod portion

62,63: first and second ball portions 64: through passage

The present invention relates to a reciprocating compressor.

In general, a reciprocating compressor is a method in which a piston sucks and compresses a refrigerant while reciprocating in a straight line in a cylinder. The reciprocating compressor may be classified into a connection type and a vibration type according to the piston driving method. The connected reciprocating compressor is a method in which the piston is connected to the rotating shaft of the rotating motor by a connecting rod to compress the refrigerant while reciprocating in the cylinder. On the other hand, the vibration-type reciprocating compressor is a method in which the piston is connected to the mover of the reciprocating motor to vibrate and compress the refrigerant by reciprocating in the cylinder.

In the connected reciprocating compressor, as the piston is constrained by the connecting rod, it is easy to match the structural concentricity and the right angle between the piston and the cylinder, and the concentricity and the right angle may be distorted during operation of the compressor. It is unlikely to reduce friction losses. On the other hand, as the suction flow path of the refrigerant is adjacent to the discharge flow path and the temperature of the suction refrigerant rises, there is a problem that the compressor efficiency decreases.

On the other hand, the vibration type reciprocating compressor can prevent the deterioration of the compressor efficiency due to the rise of the temperature of the intake refrigerant by separating the intake flow path of the refrigerant, but the piston forms the entire central axis. If the squareness is not correct, friction loss with the cylinder may occur.

The present invention solves the problems of the conventional vibration-type reciprocating compressor as described above, it is easy to match the concentricity and the right angle at the time of assembly of the piston and cylinder, and also maintains the concentricity and the right angle at all times during operation. SUMMARY OF THE INVENTION An object of the present invention is to provide a reciprocating compressor that can reduce frictional losses significantly.

In order to achieve the object of the present invention, a cylinder; A reciprocating motor for generating a linear reciprocating drive force; A gas suction passage formed therein and a piston reciprocating in the cylinder; It includes a force transmission member for transmitting the driving force of the reciprocating motor to the piston, the force transmission member is provided with a through flow passage in communication with the gas suction flow path of the piston, both ends thereof are movable with the mating connection parts, respectively. A reciprocating compressor is provided that is securely coupled.

In addition, a cylinder; A reciprocating motor positioned outside the cylinder to surround the cylinder; A piston having a gas suction passage formed therein and inserted into the cylinder to be reciprocated; A connection member connected to a mover of the reciprocating motor; A reciprocating compressor including a force transmission member having one side coupled to the piston and a ball joint coupling form and the other side coupled to the connection member and the ball joint coupling form and having a through passage communicating therewith with a gas suction passage of the piston. Is provided.

In addition, a cylinder; A reciprocating motor positioned at a predetermined distance from the cylinder; A piston having a gas suction passage formed therein and being reciprocally inserted into the cylinder; A connection member connected to a mover of the reciprocating motor; A reciprocating compressor including a force transmission member having one side coupled to the piston and a ball joint coupling form and the other side coupled to the connection member and the ball joint coupling form and having a through passage communicating therewith with a gas suction passage of the piston. Is provided.

Hereinafter, the reciprocating compressor according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

1 and 2 is a view showing an embodiment of a reciprocating compressor according to the present invention.

As shown therein, the reciprocating compressor of the present invention includes a casing 10 in which a gas suction pipe SP and a gas discharge pipe DP communicate with each other, and a frame unit 20 fixedly installed in the casing 10. And the piston 42 is supported on the frame unit 20, the reciprocating motor 30, the movable element 33 reciprocates linearly, and the movable element 33 of the reciprocating motor 30 Compression unit 40 coupled to support the frame unit 20, the movable member 33 of the reciprocating motor 30 and the piston 42 of the compression unit 40 by elastically supporting in the movement direction It includes a resonant spring 50 for inducing a resonant motion.

The frame unit 20 is coupled to the front frame 21 and the front frame 21, the compression unit 40 is supported and supports the front side of the reciprocating motor 30, the reciprocating motor 30 The intermediate frame 22 supporting the rear side of the) and the rear frame 23 is coupled to the intermediate frame 22 to support the rear side resonance spring 53 to be described later.

The reciprocating motor 30 is coupled to the outer stator 31 is installed between the front frame 21 and the intermediate frame 22, and the outer stator 31 at a predetermined interval to the compression unit 40 The inner stator 32 is inserted into and installed in the cylinder 41, and the movable stator 33 is installed between the outer stator 31 and the inner stator 32 to reciprocate in a straight line.

The compression unit 40 is coupled to the cylinder 41 fixedly installed at the front frame 21 and the mover 33 of the reciprocating motor 30 in the compression space P of the cylinder 41. A piston 42 for reciprocating motion, a suction valve 43 mounted on the tip of the piston 42 to control the suction of refrigerant gas while opening and closing the suction flow path 42a of the piston 42, and the cylinder A discharge valve 44 mounted on the discharge side of the 41 to control the discharge of the compressed gas while opening and closing the compression space P of the cylinder 41, and a valve spring for elastically supporting the discharge valve 44 ( 45 and a discharge cover 46 fixed to the front frame 21 at the discharge side of the cylinder 41 to accommodate the discharge valve 44 and the valve spring 45.

The resonant spring unit 50 includes a spring supporter 51 coupled to the connection portion of the mover 33 and the piston 42, and a front resonant spring 52 supported at the front side of the spring supporter 51. And a rear resonant spring 53 supported on the rear side of the spring supporter 51.

In the drawings, reference numeral D denotes a discharge space.

In the reciprocating compressor according to the present invention as described above, when a power is applied to the reciprocating motor 30 to form a flux between the outer stator 31 and the inner stator 32, the outer stator The mover 33 placed in the gap between the 31 and the inner stator 32 is continuously reciprocated while moving along the flux direction. In addition, when the piston 42 moves backward in the cylinder 41, the refrigerant gas filled in the inner space of the casing 10 is sucked into the suction passage 42a and the suction valve of the piston 42. Passed through 43 is sucked into the compression space (P) of the cylinder (41). When the piston 42 moves forward in the cylinder 41, the refrigerant gas sucked into the compression space P is compressed to repeat the series of processes of discharging the discharge valve 44 while opening the discharge valve 44. do.

Here, when the piston 42 reciprocates in a straight line, if the piston 42 does not coincide with the concentricity or the right angle with respect to the cylinder 41, the piston 42 is severely separated between the cylinder 42 and the cylinder 41. In the present invention, there is a risk of friction, as in the present invention, the force transmission member 60 having the self-aligning function between the reciprocating motor 30 and the piston 42, as shown in Figs. It is coupled so as to move with respect to the mover 33 of the motor 30 and the piston 41 of the compression unit 40, respectively.

To this end, the first groove portion 35a is a spherical groove so that the rear end of the force transmission member 60 is coupled to the central portion of one side of the magnet flange 35 constituting a part of the mover 33 in a ball joint coupling form. It is formed into a shape. The first groove 35a is formed to penetrate the refrigerant filled in the inner space of the casing 10 to the through passage 64 of the rod 61 to be described later.

The piston 42 has a second groove portion 42b communicating with the spherical groove shape such that the front end of the force transmission member 60 is coupled to the rear end of the suction passage 42a in the form of a ball joint coupling.

The force transmission member 60 has a predetermined length and has a rod portion 61 that is rigid to transmit the driving force of the reciprocating motor 30 to the piston 42, and outer surfaces of both ends of the rod portion 61. The first ball part 62 and the second are formed in a spherical shape and coupled to the first groove portion 35a of the magnet flange 35 and the second groove portion 42b of the piston 42 in the form of ball joint coupling, respectively. The ball part 63 is comprised.

The rod 61 has a penetrating passage 64 in the longitudinal direction such that there is a communication between the first groove portion 35a of the magnet flange 35 and the suction passage 42a of the piston 42 therein. Is formed. The through passage 64 may be formed to have the same diameter, but in some cases, the diameter of both ends may be different. In addition, at least one communication hole (not shown) may be formed in the middle of the through passage 64 in a radial direction so as to communicate with the inside of the cylinder 41.

The first ball part 62 and the second ball part 63 may be integrally protruded from both ends of the rod part 61, or may be inserted into the rod part 61 and assembled. In addition, the first ball part 62 and the second ball part 63 are formed with a lubricating oil storage groove (not shown) on its outer circumferential surface so as to be able to move smoothly in the first groove part 35a and the second groove part 42b. Alternatively, when assembled, the material may be formed of a self-lubricating material.

The reciprocating compressor according to the present invention as described above has the following effects.

That is, the accumulator tolerance of the singer mover 33 or the cylinder 41 and the piston 42 coupled thereto may occur due to a machining error or an assembly error, or an unbalance may occur in the reciprocating motor 30. When the concentricity or the right angle of the ruler 33 is misaligned, the concentricity and the right angle of the piston 42 may be misaligned. However, as in the present invention, the magnet flange 35 and the piston ( When 42 is coupled in a ball-jointing manner by the force transmission member, the mover 33 and the piston 42 can freely move each other within a certain range without restraining each other, thereby correcting the twisted concentricity and squareness. Therefore, the friction loss between the cylinder 41 and the piston 42 can be reduced, thereby reducing the wear of the reciprocating compressor, thereby increasing reliability and performance.

On the other hand, the ball joint coupling method according to the present invention can be equally applied to reciprocating compressors of other shapes.

That is, in the above-described embodiment, the inner stator 32 of the reciprocating motor 30 is inserted into and coupled to the cylinder 41 of the compression unit 40, but the present embodiment includes the inner stator 32. ) Is coupled to be positioned at a certain distance from the cylinder (41).

For example, as shown in FIG. 3, the reciprocating compressor has a cylinder 41 of the compression unit 40 fixedly coupled to the front frame 21, and an outer stator 31 and an inner stator of the reciprocating motor 30. 32 is fixedly coupled between the intermediate frame 22 and the rear frame 23. In addition, a spring supporter 51 is coupled to the rear end of the piston 42 so that the movable element 33 of the reciprocating motor 30 and the resonant springs 52 and 53 for resonating the piston 42 are supported. do. The first groove 51a is formed through the spherical groove on the center of the spring supporter 51, and the second groove 42b communicates with the suction channel 42a on one side of the piston 42. It is formed into a spherical groove shape. The force transmission member 60 may move to the first groove portion 51a and the second groove portion 42b at both ends of the rod portion 61 connecting the mover 33 and the piston 42, respectively. The first ball part 62 and the second ball part 63 are formed to be coupled to each other.

One end of the rod 61 communicates with the inner space of the casing 10, and the other end thereof communicates with the suction passage 42a of the piston 42 to fill the inner space of the casing 10. The through passage 64 is formed to penetrate in the longitudinal direction so that the refrigerant is led to the compressed space through the suction passage 42a.

As described above, the reciprocating compressor according to the present embodiment has the same configuration as the reciprocating compressor of the above-described embodiment and its effect is substantially the same, and thus a detailed description thereof will be omitted.

The reciprocating compressor according to the present invention is coupled to a ball joint coupling form using a force transmission member between the piston of the reciprocating motion in the cylinder by receiving the driving force of the mover and the mover of the reciprocating motor, the movable Even if the concentricity or the right angle of the piston is distorted due to the machining error, the assembly error or other factors generated during operation when the ruler, the cylinder and the piston are assembled, the twisted concentricity or The squareness is corrected in real time to reduce the friction loss between the cylinder and the piston, thereby stabilizing the behavior of the reciprocating compressor to increase the reliability and performance.

Claims (5)

cylinder; A reciprocating motor for generating a linear reciprocating drive force; A gas suction passage formed therein and a piston reciprocating in the cylinder; It is configured to include a force transmission member for transmitting the driving force of the reciprocating motor to the piston, The force transmission member is provided with a through flow passage in communication with the gas intake flow path of the piston, both ends thereof are reciprocating compressors movably coupled with the mating connection component, respectively. The method of claim 1, One side of the force transmission member is connected to the piston in the form of a ball joint coupling, the other side of the reciprocating compressor is connected in the form of a ball joint coupling with the connection member connected to the mover of the reciprocating motor. The method of claim 1, The force transmission member has a predetermined length and includes a rod portion having a through flow path therein, and a ball portion formed in a spherical shape on both outer surfaces of the rod portion. cylinder; A reciprocating motor positioned outside the cylinder to surround the cylinder; A piston having a gas suction passage formed therein and inserted into the cylinder to be reciprocated; A connection member connected to a mover of the reciprocating motor; A reciprocating compressor including a force transmission member having one side coupled to the piston and a ball joint coupling form and the other side coupled to the connection member and the ball joint coupling form and having a through passage communicating therewith with a gas suction passage of the piston. . cylinder; A reciprocating motor positioned at a predetermined distance from the cylinder; A piston having a gas suction passage formed therein and inserted into the cylinder to be reciprocated; A connection member connected to a mover of the reciprocating motor; A reciprocating compressor including a force transmission member having one side coupled to the piston and ball joint coupling form and the other side coupled to the connection member and ball joint coupling form and having a through passage communicating therewith with the gas suction passage of the piston. .

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